Microminiature optical waveguide structure and method for fabrication
- Castro Valley, CA
- Pleasanton, CA
- Livermore, CA
A method for manufacturing low-cost, nearly circular cross section waveguides comprises starting with a substrate material that a molten waveguide material can not wet or coat. A thin layer is deposited of an opposite material that the molten waveguide material will wet and is patterned to describe the desired surface-contact path pedestals for a waveguide. A waveguide material, e.g., polymer or doped silica, is deposited. A resist material is deposited and unwanted excess is removed to form pattern masks. The waveguide material is etched away to form waveguide precursors and the masks are removed. Heat is applied to reflow the waveguide precursors into near-circular cross-section waveguides that sit atop the pedestals. The waveguide material naturally forms nearly circular cross sections due to the surface tension effects. After cooling, the waveguides will maintain the round shape. If the width and length are the same, then spherical ball lenses are formed. Alternatively, the pedestals can be patterned to taper along their lengths on the surface of the substrate. This will cause the waveguides to assume a conical taper after reflowing by heat.
- Research Organization:
- Lawrence Livermore National Laboratory (LLNL), Livermore, CA
- DOE Contract Number:
- W-7405-ENG-48
- Assignee:
- Regents of University of California (Oakland, CA)
- Patent Number(s):
- US 5846694
- OSTI ID:
- 872024
- Country of Publication:
- United States
- Language:
- English
Reflow and burial of channel waveguides formed in sol-gel glass on Si substrates
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Microlens Fabrication Technique For An Efficient Laser/Single-Mode Fiber Coupling
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conference | January 1987 |
Silica-based circular cross-sectioned channel waveguides
|
journal | March 1991 |
Controlled Collapse Reflow Chip Joining
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journal | May 1969 |
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